/*
 * $Id$
 */

package edu.jas.gb;


import java.util.ArrayList;
import java.util.List;

import junit.framework.Test;
import junit.framework.TestCase;
import junit.framework.TestSuite;

import org.apache.log4j.BasicConfigurator;

import edu.jas.arith.BigRational;
import edu.jas.poly.GenSolvablePolynomial;
import edu.jas.poly.GenSolvablePolynomialRing;
import edu.jas.poly.PolynomialList;
import edu.jas.poly.RelationGenerator;
import edu.jas.poly.RelationTable;
import edu.jas.poly.WeylRelations;


/**
 * Solvable Reduction tests with JUnit.
 * @author Heinz Kredel.
 */

public class SolvableReductionTest extends TestCase {


    /**
     * main
     */
    public static void main(String[] args) {
        BasicConfigurator.configure();
        junit.textui.TestRunner.run(suite());
    }


    /**
     * Constructs a <CODE>SolvableReductionTest</CODE> object.
     * @param name String.
     */
    public SolvableReductionTest(String name) {
        super(name);
    }


    /**
     * suite.
     */
    public static Test suite() {
        TestSuite suite = new TestSuite(SolvableReductionTest.class);
        return suite;
    }


    //private final static int bitlen = 100;

    GenSolvablePolynomialRing<BigRational> fac;


    RelationTable table;


    GenSolvablePolynomial<BigRational> a, b, c, d, e;


    List<GenSolvablePolynomial<BigRational>> L;


    PolynomialList<BigRational> F, G;


    SolvableReduction<BigRational> sred;


    SolvableReduction<BigRational> sredpar;


    int rl = 4;


    int kl = 10;


    int ll = 5;


    int el = 3;


    float q = 0.4f;


    @Override
    protected void setUp() {
        a = b = c = d = e = null;
        fac = new GenSolvablePolynomialRing<BigRational>(new BigRational(0), rl);
        sred = new SolvableReductionSeq<BigRational>();
        sredpar = new SolvableReductionPar<BigRational>();
    }


    @Override
    protected void tearDown() {
        a = b = c = d = e = null;
        fac = null;
        sred = null;
        sredpar = null;
    }


    /**
     * Test constants and empty list reduction.
     */
    public void testRatReduction0() {
        L = new ArrayList<GenSolvablePolynomial<BigRational>>();

        a = fac.random(kl, ll, el, q);
        c = fac.getONE();
        d = fac.getZERO();

        e = sred.leftNormalform(L, c);
        assertTrue("isONE( e )", e.isONE());

        e = sred.leftNormalform(L, d);
        assertTrue("isZERO( e )", e.isZERO());


        L.add(c);
        e = sred.leftNormalform(L, c);
        assertTrue("isZERO( e )", e.isZERO());

        // e = Reduction.leftNormalform( L, a );
        // assertTrue("isZERO( e )", e.isZERO() ); 

        e = sred.leftNormalform(L, d);
        assertTrue("isZERO( e )", e.isZERO());


        L = new ArrayList<GenSolvablePolynomial<BigRational>>();
        L.add(d);
        e = sred.leftNormalform(L, c);
        assertTrue("isONE( e )", e.isONE());

        e = sred.leftNormalform(L, d);
        assertTrue("isZERO( e )", e.isZERO());
    }


    /**
     * Test constants and empty list reduction.
     */
    public void testWeylRatReduction0() {
        L = new ArrayList<GenSolvablePolynomial<BigRational>>();

        RelationGenerator<BigRational> wl = new WeylRelations<BigRational>();
        wl.generate(fac);

        a = fac.random(kl, ll, el, q);
        c = fac.getONE();
        d = fac.getZERO();

        e = sred.leftNormalform(L, c);
        assertTrue("isONE( e )", e.isONE());

        e = sred.leftNormalform(L, d);
        assertTrue("isZERO( e )", e.isZERO());


        L.add(c);
        e = sred.leftNormalform(L, c);
        assertTrue("isZERO( e )", e.isZERO());

        e = sred.leftNormalform(L, a);
        assertTrue("isZERO( e )", e.isZERO());

        e = sred.leftNormalform(L, d);
        assertTrue("isZERO( e )", e.isZERO());


        L = new ArrayList<GenSolvablePolynomial<BigRational>>();
        L.add(d);
        e = sred.leftNormalform(L, c);
        assertTrue("isONE( e )", e.isONE());

        e = sred.leftNormalform(L, d);
        assertTrue("isZERO( e )", e.isZERO());
    }


    /**
     * Test Rat reduction.
     */
    public void testRatReduction() {
        a = fac.random(kl, ll, el, q);
        b = fac.random(kl, ll, el, q);

        assertTrue("not isZERO( a )", !a.isZERO());

        L = new ArrayList<GenSolvablePolynomial<BigRational>>();
        L.add(a);

        e = sred.leftNormalform(L, a);
        assertTrue("isZERO( e )", e.isZERO());

        assertTrue("not isZERO( b )", !b.isZERO());

        L.add(b);
        e = sred.leftNormalform(L, a);
        assertTrue("isZERO( e ) some times", e.isZERO());
    }


    /**
     * Test Rat reduction parallel.
     */
    public void testRatReductionPar() {
        a = fac.random(kl, ll, el, q);
        b = fac.random(kl, ll, el, q);

        assertTrue("not isZERO( a )", !a.isZERO());

        L = new ArrayList<GenSolvablePolynomial<BigRational>>();
        L.add(a);

        e = sredpar.leftNormalform(L, a);
        assertTrue("isZERO( e )", e.isZERO());

        assertTrue("not isZERO( b )", !b.isZERO());

        L.add(b);
        e = sredpar.leftNormalform(L, a);
        assertTrue("isZERO( e ) some times", e.isZERO());
    }


    /**
     * Test Weyl Rational reduction.
     */
    public void testWeylRatReduction() {
        L = new ArrayList<GenSolvablePolynomial<BigRational>>();

        RelationGenerator<BigRational> wl = new WeylRelations<BigRational>();
        wl.generate(fac);

        a = fac.random(kl, ll, el, q);
        b = fac.random(kl, ll, el, q);

        assertTrue("not isZERO( a )", !a.isZERO());

        L.add(a);

        e = sred.leftNormalform(L, a);
        assertTrue("isZERO( e )", e.isZERO());

        assertTrue("not isZERO( b )", !b.isZERO());

        L.add(b);
        e = sred.leftNormalform(L, a);
        assertTrue("isZERO( e ) some times", e.isZERO());
    }


    /**
     * Test Weyl Rational reduction parallel.
     */
    public void testWeylRatReductionPar() {
        L = new ArrayList<GenSolvablePolynomial<BigRational>>();

        RelationGenerator<BigRational> wl = new WeylRelations<BigRational>();
        wl.generate(fac);

        a = fac.random(kl, ll, el, q);
        b = fac.random(kl, ll, el, q);

        assertTrue("not isZERO( a )", !a.isZERO());

        L.add(a);

        e = sredpar.leftNormalform(L, a);
        assertTrue("isZERO( e )", e.isZERO());

        assertTrue("not isZERO( b )", !b.isZERO());

        L.add(b);
        e = sredpar.leftNormalform(L, a);
        assertTrue("isZERO( e ) some times", e.isZERO());
    }


    /**
     * Test Rat reduction recording.
     */
    public void testRatReductionRecording() {
        List<GenSolvablePolynomial<BigRational>> row = null;

        a = fac.random(kl, ll, el, q);
        b = fac.random(kl, ll, el, q);
        c = fac.random(kl, ll, el, q);
        d = fac.random(kl, ll, el, q);

        assertTrue("not isZERO( a )", !a.isZERO());

        L = new ArrayList<GenSolvablePolynomial<BigRational>>();

        L.add(a);
        row = new ArrayList<GenSolvablePolynomial<BigRational>>(L.size());
        for (int m = 0; m < L.size(); m++) {
            row.add(null);
        }
        e = sred.leftNormalform(row, L, a);
        assertTrue("isZERO( e )", e.isZERO());
        assertTrue("not isZERO( b )", !b.isZERO());
        assertTrue("is leftReduction ", sred.isLeftReductionNF(row, L, a, e));

        L.add(b);
        row = new ArrayList<GenSolvablePolynomial<BigRational>>(L.size());
        for (int m = 0; m < L.size(); m++) {
            row.add(null);
        }
        e = sred.leftNormalform(row, L, b);
        assertTrue("is leftReduction ", sred.isLeftReductionNF(row, L, b, e));

        L.add(c);
        row = new ArrayList<GenSolvablePolynomial<BigRational>>(L.size());
        for (int m = 0; m < L.size(); m++) {
            row.add(null);
        }
        e = sred.leftNormalform(row, L, c);
        assertTrue("is leftReduction ", sred.isLeftReductionNF(row, L, c, e));

        L.add(d);
        row = new ArrayList<GenSolvablePolynomial<BigRational>>(L.size());
        for (int m = 0; m < L.size(); m++) {
            row.add(null);
        }
        e = sred.leftNormalform(row, L, d);
        assertTrue("is leftReduction ", sred.isLeftReductionNF(row, L, d, e));
    }

}
